JP2009060339A - Electronic camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic camera capable of providing photographing support information suitable for utilization by an infinite number of photographers. <P>SOLUTION: The digital camera 1 detects a camera position and sets search conditions of photographing information based on the detected camera position. Based on the search conditions, photographing information is searched and extracted from a database recorded in a server device 3, and the photographing support information based on the extracted photographing information is displayed and provided to a user. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electronic camera.

  Conventionally, in order to facilitate shooting under a common shooting intention among a plurality of photographers, shooting information indicating a situation at the time of shooting is used as support information at the time of shooting from the first camera. An imaging support method is known in which the image is transmitted to the second camera and the second camera performs imaging using the transmitted support information (see Patent Document 1).

JP 2001-8089 A

  The photographing support method disclosed in Patent Literature 1 is taken by a specific photographer having a common photographing intention, for example, when photographing a product photograph for sales promotion in a plurality of stores in different cities. It is suitable for use in situations where Therefore, it is not possible to provide shooting support information suitable for use by an unspecified number of photographers.

An electronic camera according to a first aspect of the present invention includes an imaging unit that captures an image of a subject, a position detection unit that detects a position of the imaging unit, and an imaging database having a plurality of imaging information based on the position detected by the position detection unit. A search unit that searches for shooting information about the subject, and a providing unit that provides shooting support information based on the shooting information searched by the search unit to the user.
According to a second aspect of the present invention, the electronic camera according to the first aspect further includes a direction detection unit that detects the direction of the electronic camera, and the search unit detects the position detected by the position detection unit and the direction detection unit. The photographing information is searched based on the orientation.
According to a third aspect of the present invention, in the electronic camera according to the second aspect, the direction detecting unit detects the direction of the electronic camera in at least one of the horizontal direction and the vertical direction, and the search unit is detected by the position detecting unit. The photographing information is searched based on the detected position and the direction detected by the direction detection unit in at least one of the horizontal direction and the vertical direction.
According to a fourth aspect of the present invention, in the electronic camera according to any one of the first to third aspects, the providing unit displays the photographing support information on the display monitor by superimposing the photographing support information on the through image. It is to provide.
According to a fifth aspect of the present invention, in the electronic camera according to any one of the first to fourth aspects of the present invention, the electronic camera further includes a photographing condition setting unit that sets photographing conditions based on the photographing support information.
According to a sixth aspect of the present invention, in the electronic camera according to any one of the first to fifth aspects, the search unit includes a composition, a shutter speed, an aperture, a white balance, a focal length, an angle of view, a used photographing lens, and an in-focus lens. The imaging information including at least one of the position and the lighting state is searched from the imaging database.
A seventh aspect of the invention provides the electronic camera according to any one of the first to sixth aspects, further comprising an information acquisition unit that acquires at least one of map information, schedule information, and event information The unit provides the user with shooting support information based on the shooting information searched by the search unit and the map information, schedule information, or event information acquired by the information acquisition unit.
The invention according to claim 8 is the electronic camera according to any one of claims 1 to 7, wherein the search unit searches for shooting information based on at least one of season, date, and climate. It is.
An electronic camera according to a ninth aspect of the invention is a receiving unit that receives shooting information transmitted from a transmission device provided in a subject, and a providing unit that provides shooting support information based on the shooting information received by the receiving unit to a user. With.
According to a tenth aspect of the present invention, in the electronic camera according to the ninth aspect, a through image acquisition unit that acquires a through image, a through image display unit that displays the through image on a display monitor, and a through image displayed on the display monitor And a selection unit that selects any one of the plurality of subjects captured in the transmission, the transmission device is provided for each of the plurality of subjects, and the providing unit transmits from the transmission device provided for each of the plurality of subjects. Among the captured information, the user is provided with the shooting support information based on the shooting information transmitted from the transmission device provided for the subject selected by the selection unit.

  According to the present invention, it is possible to provide shooting support information suitable for use by an unspecified number of photographers.

-First embodiment-
The electronic camera of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of a camera system including a digital camera according to an embodiment of the present invention. The camera system shown in FIG. 1 includes a digital camera 1, an access point 2, and a server device 3. The access point 2 and the server device 3 are connected via the Internet.

  The digital camera 1 is an electronic camera that takes a subject in accordance with a user's shooting instruction and acquires captured image information. The digital camera 1 also has a wireless communication function for performing wireless communication with the access point 2. By this wireless communication, the digital camera 1 and the server device 3 are connected via the access point 2 and the Internet. The configuration of the digital camera 1 will be described in detail later with reference to FIGS.

  The access point 2 is a device for enabling various devices including the digital camera 1 having a wireless communication function to communicate using a network such as the Internet. When the digital camera 1 and the access point 2 perform wireless communication, the digital camera 1 and the server device 3 are connected as described above.

  The server device 3 stores a database (photographing database). In this database, various types of captured image information acquired by the digital camera 1 or other cameras are recorded in association with the acquisition positions. In other words, the database of the server device 3 records information of captured images captured by various users in association with acquisition positions.

  Furthermore, shooting information corresponding to various shooting situations is also recorded in the database of the server device 3. This shooting information is recorded in combination with the shot image information. That is, when recording the captured image information in the database, the user of each camera can record the captured information corresponding to the captured state in the database in combination with the captured image information. For example, it is possible to input a recommended composition, points to be noted at the time of shooting, detailed information on a shooting point, and the like and record them as shooting information. When the shooting support mode is set in the digital camera 1, shooting support information based on shooting information recorded in the database according to the shooting situation in this way is provided to the user as described later.

  Or you may record the imaging | photography information based on the imaging conditions set at the time of imaging | photography with the camera in the database of the server apparatus 3. FIG. For example, at least one of shutter speed, aperture, white balance, focal length, field angle, shooting lens used, focus position (distance from camera to main subject), lighting status (flash usage), etc. Recording information including one of them is recorded in the database. Various scene modes that combine multiple types of shooting conditions according to shooting conditions are set in advance, and information indicating which scene mode is selected at the time of shooting is recorded in the database as shooting information. Also good.

  Next, the configuration of the digital camera 1 will be described. FIG. 2 is a diagram illustrating an appearance of the digital camera 1. 2, the digital camera 1 includes a shutter button 11, a power button 12, a zoom button 13, a playback button 14, a menu button 15, a delete button 16, a jog dial 17, a determination button 18, and a LAN (Local Area Network) access. LED (Light Emitting Diode) 19, strobe charging LED 20, AF (Auto Focus) LED 21, memory access LED 22, power LED 23, and monitor 104.

  The shutter button 11 is an operation button for the user to give a shooting instruction to the digital camera 1 and has a two-stage switch of half-press and full-press. The power button 12 is an operation button for the user to switch the main power source of the digital camera 1 from on to off or from off to on. The zoom button 13 is an operation button used when the user changes the focal length of the photographing lens of the digital camera 1.

  The playback button 14 is an operation button for the user to instruct the digital camera 1 to play back image data. The menu button 15 is an operation button for the user to instruct the digital camera 1 to call a menu screen. The delete button 16 is an operation button used when the user deletes image data from the memory card loaded in the digital camera 1.

  The jog dial 17 is a rotatable operation member for a user to give an instruction to move the cursor on the screen. The determination button 18 is an operation button for the user to determine setting contents on the menu screen.

  The LAN access LED 19 is a display device that lights up when the digital camera 1 is performing wireless communication with the access point 2. When the LED 19 for LAN access is turned on, the user can be notified that the digital camera 1 is communicating. The strobe charging LED 20 is a display device that is lit while the strobe is being charged. When the strobe charging LED 20 is turned on before photographing, the user can be informed that the strobe is being charged and preparation for photographing is not completed.

  The AF LED 21 is a display device for informing the user of the AF in-focus state. The memory access LED 22 is a display device that lights up in a memory access state, that is, when data is being written to a memory card loaded in the digital camera 1 and when data is being read from the memory card. The power LED 23 is a display device that lights up when the digital camera 1 is in a power-on state.

  The monitor 104 is a color display device using an LCD (Liquid Crystal Display) or the like, and displays various images. For example, when the monitor 104 displays a through image, the monitor 104 is used as a viewfinder at the time of shooting. The through image (through image) is a photographed image of a subject displayed on the monitor 104 in real time when an operation mode such as a photographing mode or a photographing support mode described later is set in the digital camera 1. is there. Further, the monitor 104 can also display a captured image, display a menu screen, and the like.

  FIG. 3 is a block diagram of the digital camera 1. As shown in this block diagram, the digital camera 1 includes a CPU 101, a compression / expansion circuit 102, a display driver 103, a monitor 104, a key input unit 105, a wireless LAN circuit 106, a GPS (Global Positioning System) sensor 107, and a motion sensor 108. , Capacitor 109, battery 110, strobe 111, CCD (Charge Coupled Device) driver 112, CCD 113, and memory 114. A memory card 115 as a recording medium is loaded in a card slot (not shown).

  The CPU 101 is a circuit for executing various processes and controls, and is configured using a microcomputer or the like. The compression / decompression circuit 102 is a circuit that compresses / decompresses captured image data. The display driver 103 is a drive circuit that controls an image displayed on the monitor 104. The key input unit 105 is a circuit that detects operations of buttons, switches, dials, and the like provided in the digital camera 1.

  The wireless LAN circuit 106 is a communication circuit for communicating with an external device wirelessly. By performing wireless communication with the access point 2 by the wireless LAN circuit 106, the digital camera 1 is connected to the server apparatus 3 via the Internet.

  The GPS sensor 107 receives a GPS signal transmitted from a GPS satellite and outputs it to the CPU 101. Based on this GPS signal, the CPU 101 detects the current position of the digital camera 1. The motion sensor 108 detects the posture change of the digital camera 1 in each direction of pitch, yaw, and roll. Note that when the optical axis of the digital camera 1 is oriented in the horizontal direction, the change in posture in the pitch direction represents a change in posture about an axis that is orthogonal to the optical axis, that is, a change in elevation angle, and a change in posture in the yaw direction. Represents a change in posture around an axis perpendicular to the optical axis, that is, a change in azimuth. Further, the posture change in the roll direction represents a posture change around the optical axis, that is, a change in the tilt of the digital camera 1.

  The capacitor 109 is charged by receiving electric power from the battery 110 and is used for light emission of the strobe 111. It is also used to drive the camera as a backup power source in case of emergency. The battery 110 is a power source such as a lithium ion rechargeable battery that supplies power necessary for operating the digital camera 1.

  The strobe 111 enables photographing even in a dark environment by irradiating the subject with auxiliary light. The CCD driver 112 is a circuit for driving the CCD 113. The CCD 113 is an image sensor for capturing a subject image via a photographing lens. When a subject image is picked up by the CCD 113, an image pickup signal is output from the CCD 113 to the CCD driver 112. The imaging signal is converted into captured image data by the CCD driver 112 and then output to the CPU 101.

  The memory 114 is a nonvolatile semiconductor memory, and stores programs, data, and the like for use in control executed by the CPU 101. The memory card 115 stores various information such as photographed image information acquired by the digital camera 1 under the control of the CPU 101.

  Next, the operation of the digital camera 1 will be described. The digital camera 1 responds to a user's operation with various operation modes such as a shooting mode for acquiring a shot image and a shooting support mode for receiving shooting support information based on shooting information recorded in a database. Can be set.

  When the shooting mode is set, the digital camera 1 acquires a through image as described above based on the image of the subject imaged by the CCD 113 and displays it on the monitor 104 before imaging the subject. . When a shooting instruction is performed by the user operating the shutter button 11, the digital camera 1 captures a subject and acquires a captured image in accordance with the shooting instruction, and stores information on the acquired captured image in the memory card 115. Record.

  When recording photographed image information on the memory card 115, the digital camera 1 adds various information at the time of photographing to the photographed image information as meta information. For example, various information such as the shooting conditions and shooting time at the time of shooting as described above are added as meta information to the shot image information and recorded in the memory card 115. The meta information includes position information of the digital camera 1 detected at the time of shooting using the GPS sensor 107.

  Further, at this time, the digital camera 1 detects the orientation of the digital camera 1 at the time of shooting based on the posture change of the digital camera 1 detected by the motion sensor 108. At this time, the orientation of the digital camera 1 at the time of shooting is detected by obtaining an azimuth angle representing the horizontal direction of the digital camera 1 and an elevation angle representing the vertical direction of the digital camera 1. The captured image information may be further recorded in the memory card 115 in association with the acquisition direction by adding the detected direction information at the time of shooting to the meta information.

  Note that a part of the captured image information recorded in the memory card 115 may be transmitted from the digital camera 1 to the server device 3 in accordance with a user operation and recorded in the database in the server device 3. At this time, information on the shooting conditions set in the digital camera 1 when the captured image is acquired, and information on the position, orientation, time, and the like of the digital camera 1 detected at the time of shooting are included as meta information together with the captured image information. Sent. By recording these meta information together with the captured image information, the captured image information is recorded in the database of the server device 3 in association with the acquisition position, the acquisition time, the acquisition direction, and the like.

  When the photographed image information is transferred from the digital camera 1 to the server device 3 and recorded in the database, the photograph information corresponding to the photographing situation can be recorded together. The contents of the shooting information are determined based on information recorded as meta information, information input by the user at the time of transfer, and the like, and are combined with the shooting image information and recorded in the database as described above.

  On the other hand, when the shooting support mode is set, the digital camera 1 searches and extracts shooting information satisfying a predetermined search condition from a database stored in the server device 3. Based on the extracted shooting information, various shooting support information for supporting shooting is displayed on the monitor 104 together with the corresponding shooting image information on the through image and presented to the user. Note that the shooting information extracted from the database of the server device 3 is transmitted to the digital camera 1 via the Internet and the access point 2.

  The digital camera 1 can set a search target area for an information acquisition position as one of search conditions when searching for shooting information from a database. This search target area includes the current position (camera position) of the digital camera 1 based on the GPS signal received by the GPS sensor 107 and the optical axis direction (camera direction) based on the attitude of the digital camera 1 detected by the motion sensor 108. ). Specifically, the current camera position is set as the viewpoint, and a vector having a predetermined length extending from the viewpoint in the direction of the camera is set as a line-of-sight vector. A predetermined spatial range centered on this line-of-sight vector is set as the search target area. Note that the search target area is set to become wider as the distance from the viewpoint increases. Or the opposite may be sufficient.

  In setting the search target area, only the horizontal camera direction, that is, the azimuth angle may be used. That is, a predetermined spatial range can be set as the search target area for the horizontal direction, and the entire spatial range can be included in the search target area for the vertical direction. Alternatively, in addition to the horizontal camera direction, the vertical camera direction, that is, the elevation angle may also be used to set a predetermined spatial range in the search target area in each of the horizontal direction and the vertical direction. Furthermore, the search target area may be set based only on the camera position without using the camera orientation. That is, a predetermined range centered on the current camera position may be set as the search target area.

  When the search conditions as described above are set in the digital camera 1, shooting information satisfying the search conditions is extracted from the database stored in the server device 3. That is, the photographed image information associated with the acquisition position in the search target area set as the retrieval condition is first retrieved, and the photographed information recorded in combination with the photographed image information is retrieved next. The photographed image information and the photographed information retrieved in this way are retrieved from the database and extracted. When searching the database of the server device 3, the search conditions set in the digital camera 1 are transmitted to the server device 3 via the access point 2 and the Internet. Information extracted from the database of the server device 3 is transmitted to the digital camera 1 via the Internet and the access point 2.

  The digital camera 1 displays the captured image information extracted as described above from the database of the server device 3 and various shooting support information based on the extracted shooting information on the monitor 104 on the through image. For example, the precautions at the time of shooting recorded as shooting information, recommended shooting points, contents of setting conditions of shooting conditions, and the like are displayed together with the shot image information as shooting support information. As a result, shooting information related to the subject that the user is shooting is searched and extracted from the database, and shooting support information based on the shooting information is presented to the user together with the shot image information.

  When shooting information is searched and extracted from the database as described above, shooting information recorded by the user himself / herself may be excluded from the search target or may not be excluded. When excluded, the shooting information satisfying the search condition among the shooting information recorded by others is extracted from the database and presented to the user. On the other hand, if not excluded, shooting information satisfying the search condition is extracted from the database among the shooting information recorded by various people including himself and presented to the user.

  FIG. 4 is an example of a through image displayed on the monitor 104 when the shooting mode is set. When the shutter button 11 is not pressed in the shooting mode, such a through image is displayed. On the other hand, FIG. 5 is an example of a display screen on the monitor 104 when the photographing support mode is set. Hereinafter, such a display screen is referred to as a photographing support screen.

  On the shooting support screen of FIG. 5, grid lines for providing a three-dimensional visual effect are displayed on the through image of FIG. Thereby, a pseudo three-dimensional space (hereinafter referred to as a pseudo three-dimensional space) is expressed on the screen.

  The range of the pseudo three-dimensional space on the photographing support screen is determined according to the above-described camera position and camera orientation. That is, the digital camera 1 uses the current camera position detected based on the GPS signal received by the GPS sensor 107 as a viewpoint, and looks at the current camera direction based on the posture of the digital camera 1 detected by the motion sensor 108. A display target range in real space is set as a vector. The display target range at this time is preferably the same size as or smaller than the above-described search target area so that all the photographed image information extracted from the database can be displayed. The pseudo three-dimensional space corresponding to the display target range set in this way is superimposed on the through image and expressed on the screen of the monitor 104. As described above, the range of the pseudo three-dimensional space on the photographing support screen is set corresponding to the display target range in the real space according to the current camera position and camera orientation. Therefore, the range of the pseudo three-dimensional space is coincident with the display range of the through image.

  When the focal length of the photographing lens is variable in the digital camera 1, it is preferable to change the display target range according to the focal length of the photographing lens. That is, the longer the focal length of the photographic lens and the smaller the angle of view, the smaller the display range of the through image, and accordingly the display target range is also reduced. In this case, the pseudo three-dimensional space is enlarged and displayed on the photographing support screen. On the other hand, as the focal length of the photographic lens is shortened and the angle of view is increased, the display range of the through image is increased, and accordingly, the display target range is increased accordingly. In this case, the pseudo three-dimensional space is reduced and displayed on the photographing support screen. In this way, even when the focal length is changed, the display range of the through image and the range of the pseudo three-dimensional space on the photographing support screen can be reliably matched.

  In the photographing support screen of FIG. 5 described above, the thumbnail image 31 obtained by reducing the photographed image based on the photographed image information extracted from the database is arranged at a predetermined position in the pseudo three-dimensional space. The display position of the thumbnail image 31 is determined corresponding to the acquisition position of the captured image information represented by the thumbnail image 31, that is, the acquisition position recorded in the database in association with the captured image information. In other words, on the photographing support screen, the photographed image information extracted from the database is arranged and displayed at a position in the pseudo three-dimensional space corresponding to the acquisition position in the real space. In the thumbnail image 31, the shooting condition information set at the time of shooting is displayed as a balloon-like display frame 32 as shooting support information based on the extracted shooting information.

  In this way, the digital camera 1 displays the shooting support information based on the shooting information extracted by searching from the database of the server device 3 on the monitor 104 with the thumbnail image 31 obtained by reducing the shot image on the through image, and displays it on the monitor 104. To provide. By referring to the photographing support information provided in this way, the user of the digital camera 1 can photograph the subject appropriately.

  Furthermore, when the user selects the display frame 32 on which the shooting support information is displayed on the shooting support screen of FIG. 5, shooting conditions are set in the digital camera 1 based on the shooting support information. That is, shooting conditions corresponding to the contents such as the scene mode, focal length, and light control state displayed as shooting support information are set. Thus, the user can easily set shooting conditions suitable for shooting without operating the digital camera 1 to set shooting conditions. Note that the user can select the display frame 32 by operating, for example, the jog dial 17 or the determination button 18 while the photographing support screen is displayed on the monitor 104.

  Note that the form of providing shooting support information using the display frame 32 as described above is an example, and thus the shooting support information may be provided to the user in other forms. For example, the shooting support information may be provided by displaying an icon corresponding to a shooting condition such as a scene mode. Alternatively, shooting support information can be provided by voice. The pseudo three-dimensional space may not be displayed.

  Alternatively, the digital camera 1 acquires map information around the current position, future schedule information, event information, and the like, and provides shooting support information based on these information and shooting information extracted from the database to the user. May be. For example, a map indicating the positional relationship between the current position and the subject, a recommended shooting time zone according to a future schedule or event, and the like are provided to the user as shooting support information. In this way, even more useful shooting support information can be provided to the user. Note that map information, schedule information, event information, and the like can be acquired from the server device 3, other server devices, the memory 114, and the like.

  Furthermore, the season, date, climate, etc. may be taken into account when retrieving the shooting information from the database. That is, in the digital camera 1, in addition to the current camera position and camera orientation, a search condition is set based on at least one of the current season, date and climate. By searching and extracting shooting information satisfying the set search conditions from the database, shooting support information more suitable for the current shooting situation can be provided to the user.

  When the shooting support mode is set, the digital camera 1 performs various processes as described above, thereby extracting various shooting information from the database of the server device 3 and providing shooting support information. FIG. 6 is a flowchart showing the flow of processing at this time. This flowchart is executed by the CPU 101. Hereinafter, the flowchart of FIG. 6 will be described.

  In step S10, captured image data based on the imaging signal from the CCD 113 is received from the CCD driver 112, and a through image of the subject is acquired. In step S20, the through image acquired in step S10 is displayed on the monitor 104. Thereby, a through image as shown in FIG. 4 is displayed.

  In step S30, it is determined whether or not the shooting support mode is set. If the photographing support mode is set, the process proceeds to the next step S40. On the other hand, if the shooting support mode is not set and the shooting mode is set, the process returns to step S10. Thereby, a through image as shown in FIG. 4 is displayed in the photographing mode. When the user issues a shooting instruction by operating the shutter button 11, a shot image is acquired according to the shooting instruction, and the shot image information is recorded in the memory card 115.

  In step S40, the camera position is detected. Here, a GPS signal is received by the GPS sensor 107, and a camera position indicating the current position of the digital camera 1 is detected based on the GPS signal. In the next step S50, the camera posture is detected. Here, based on the posture change of the digital camera 1 detected by the motion sensor 108, the camera orientation indicating the current orientation of the digital camera 1 is detected.

  In step S60, a search condition for searching for shooting information from the database is set by the method as described above based on the camera position detected in step S40 and the camera posture detected in step S50. That is, the search condition is set by setting the search target area based on the camera position and the camera direction.

  In step S70, the photographing information is searched from the database of the server device 3 based on the search condition set in step S60. In step S80, the shooting information searched in step S70 is extracted from the database. Thereby, the imaging information satisfying the search condition is extracted.

  In step S90, shooting support information based on the shooting information extracted in step S80 is displayed on the monitor 104. Here, a grid line representing the pseudo-stereoscopic space is displayed superimposed on the through image displayed in step S20, and characters, icons, and the like corresponding to the contents of the shooting support information are respectively displayed at corresponding positions in the pseudo-stereoscopic space. indicate. Thereby, a photographing support screen as shown in FIG. 5 is displayed.

  In step S100, it is determined whether any of the photographing support information displayed in step S90 has been selected by a user operation (for example, full shutter release). If any shooting support information is selected, the process proceeds to step S110. If no shooting support information is selected, the process returns to step S10.

  In step S110, the digital camera 1 sets shooting conditions corresponding to the shooting support information selected in step S100. As a result, shooting conditions suitable for shooting are automatically set in the digital camera 1 in accordance with the scene mode, focal length, dimming state, and the like of the shooting support information selected in step S100. If step S110 is performed, it will return to step S10.

According to 1st Embodiment described above, there exists the following effect.
(1) The digital camera 1 detects the camera position indicating the current position of the digital camera 1, that is, the current position of the CCD 113 that captures the subject, based on the GPS signal received by the GPS sensor 107, by the processing of the CPU 101. (Step S40). Then, based on the detected position, the photographing information related to the subject is searched from the photographing database of the server device 3 having a plurality of pieces of photographing information (step S70). The shooting support information based on the searched shooting information is displayed on the monitor 104 (step S90) to be provided to the user. Since this is done, it is possible to provide shooting support information suitable for use by an unspecified number of photographers.

(2) The digital camera 1 detects the orientation of the digital camera 1 based on the attitude of the digital camera 1 detected by the motion sensor 108 by the processing of the CPU 101 (step S50). In step S70, the imaging information is searched based on the position detected in step S40 by the CPU 101 and the orientation detected in step S50. That is, in step S50, the orientation of the digital camera 1 is detected in at least one of the horizontal direction and the vertical direction. In step S60, the position detected in step S40 and at least one of the horizontal direction and the vertical direction in step S50. A search condition is set based on the direction detected for either one. Using this search condition, the shooting information is searched in step S70. In this way, it is possible to search for shooting information that more accurately reflects the current situation compared to searching for shooting information based only on the position detection result.

(3) The digital camera 1 acquires a through image captured by the CCD 13 (step S10). In step S90, the shooting support information is provided by displaying the shooting support information on the monitor 104 over the through image. Since it did in this way, the user can confirm the provided imaging | photography assistance information, observing the state of a to-be-photographed object by a through image.

(4) When any of the shooting support information displayed in step S90 is selected (step S100), the digital camera 1 sets shooting conditions based on the shooting support information by the processing of the CPU 101 (step S110). ) Thus, the user can easily set the shooting conditions suitable for shooting in the digital camera 1 without having to set the shooting conditions by operating the digital camera 1 one by one.

(5) In step S70, the digital camera 1 shoots shooting information including at least one of the shutter speed, aperture, white balance, angle of view, focal length, focus position, and light control state at the time of shooting. We decided to search from the database. Since it did in this way, the photography information which represents a photography situation exactly can be searched and extracted.

(6) The digital camera 1 acquires at least one of map information, schedule information, and event information under the control of the CPU 101, and in step S90, the shooting information extracted in step S80, the acquired map information, Shooting support information based on schedule information or event information can be provided to the user. In this way, even more useful shooting support information can be provided to the user.

(7) In step S70, the digital camera 1 can search for shooting information based on at least one of season, date, and climate. That is, in step S60, it is possible to set a search condition based on at least one of season, date, and climate, and to use the search condition to search for shooting information in step S70. In this way, shooting support information more suitable for the current shooting situation can be provided to the user.

-Second Embodiment-
Next, an electronic camera according to a second embodiment of the present invention will be described. FIG. 7 is a configuration diagram of a camera system including the digital camera 1A according to the present embodiment. In the camera system shown in FIG. 7, the digital camera 1 </ b> A receives shooting information transmitted from the transmission device 4 and provides shooting support information based on the shooting information to the user. The appearance of the digital camera 1A is the same as that of the digital camera 1 shown in FIG.

  The transmission device 4 is provided in a subject to be photographed by the digital camera 1A. For example, the transmission device 4 is installed in a place or object that is easy to be photographed, such as a tourist attraction or a famous building. Alternatively, the transmission device 4 may be provided to a person or the like that the user of the digital camera 1A intends to shoot. In this way, the transmission device 4 provided for various subjects transmits various pieces of photographing information regarding the subject stored in advance to the digital camera 1A by wireless communication such as radio waves and infrared rays. For example, information such as the position, height, size, and orientation of the subject is transmitted as shooting information.

  The digital camera 1A that has received the shooting information transmitted from the transmission device 4 provides the user with shooting support information based on the shooting information. For example, the angle of view required for photographing the entire subject is calculated based on the position, height, size, etc. of the subject transmitted as photographing information, and the user is recommended to replace the photographing lens as necessary. Or, according to the direction of the subject transmitted as the shooting information, the recommended shooting direction is instructed to the user by characters, images, sounds, or the like. In addition to this, various contents can be provided as shooting support information.

  FIG. 8 is a block diagram of the digital camera 1A. As shown in this block diagram, the digital camera 1 </ b> A has the same configuration as the digital camera 1 shown in FIG. 3 except that it includes a receiving circuit 116 instead of the wireless LAN circuit 106. The receiving circuit 116 is a circuit for receiving imaging information transmitted from the receiving device 4, demodulating it, and outputting it to the CPU 101.

  FIG. 9 is an example of a through image displayed on the monitor 104 with respect to the subject 33 in the digital camera 1A of the present embodiment. On the other hand, FIG. 10 is an example of a shooting support screen displayed on the monitor 104 for the same subject 33 as in FIG. 9 when shooting information is transmitted from the transmission device 4. At this time, it is assumed that the subject 33 is provided with the receiving device 4 of FIG. Note that the shooting support screen of FIG. 10 does not display grid lines for providing a three-dimensional visual effect unlike the shooting support screen of FIG.

  When the shooting information is transmitted from the receiving device 4 provided in the subject 33, the digital camera 1A receives the shooting information. At this time, for example, if information on the position and height of the subject is transmitted as shooting information, the digital camera 1 </ b> A captures the entire subject 33 based on the content of the shooting information and the current camera position. Calculate the required angle of view. In accordance with the angle of view calculated in this way, a message for recommending the user to replace the photographing lens is displayed on the display frame 34, thereby providing photographing support information to the user. For example, photographing support information is provided in this way.

  When a plurality of subjects are displayed in the through image, and shooting information is transmitted from the transmission device 4 installed on each of the plurality of subjects, the digital camera 1A stores any shooting information. It is preferable to select as a reception target. That is, when the transmission device 4 is provided for each of a plurality of subjects within the range of the through image and the shooting information is transmitted from each of the subjects, the digital camera 1A prompts the user to select one of the subjects. Request. In response to this request, when the user operates the digital camera 1A to select any subject, the digital camera 1A obtains shooting support information based on the shooting information transmitted from the transmission device 4 corresponding to the selected subject. Provide to users. At this time, for example, the user can select a subject using an AF area for selecting an AF distance measuring point at the time of shooting. In this way, it is possible to provide shooting support information only for the subject that the user is shooting, and thus it is possible to prevent unnecessary shooting support information from being provided.

  When the shooting information is transmitted from the transmission device 4 installed on the subject, the digital camera 1A receives the shooting information by executing the processing described above, and provides shooting support information based on the shooting information. . FIG. 11 is a flowchart showing the flow of processing at this time. This flowchart is executed by the CPU 101. Hereinafter, the flowchart of FIG. 11 will be described.

  In steps S210 and S220, a through image as shown in FIG. 9 is displayed on the monitor 104 by executing the same processing as in steps S10 and S20 of FIG. In step S230, it is determined whether shooting information is transmitted from the subject displayed in the through image displayed in step S220. If the shooting information is transmitted, the process proceeds to the next step S240. On the other hand, if the shooting information has not been transmitted, the process returns to step S210 to continue displaying the through image.

  In step S240, it is determined whether shooting information is transmitted from a plurality of subjects. When transmitted from a plurality of subjects, that is, when the transmission device 4 is provided for each of the plurality of subjects shown in the through image, and shooting information is transmitted from each of the transmission devices 4, the process proceeds to step S250. . In step S250, the subject is selected according to the user's operation. Thereby, one of the plurality of subjects provided with the transmission device 4 is selected. If step S250 is performed, it will progress to step S260. On the other hand, if it is determined in step S240 that shooting information has not been transmitted from a plurality of subjects, the process proceeds to step S260 without executing step S250.

  In step S260, the imaging information transmitted from the transmission device 4 is received. If it is determined in step S240 that the shooting information is transmitted from a plurality of subjects, only the shooting information transmitted from the transmission device 4 of the subject selected in step S250 is received.

  In step S270, shooting support information based on the shooting information received in step S260 is displayed on the monitor 104. Here, a character, an icon, or the like corresponding to the content of the shooting support information is displayed on the through image displayed in step S220. Thereby, a photographing support screen as shown in FIG. 10 is displayed. At this time, as described in the first embodiment, shooting conditions may be further set based on the shooting support information. If step S270 is performed, it will return to step S210.

According to 2nd Embodiment described above, there exists the following effect.
(1) The digital camera 1A receives the photographing information transmitted from the transmission device 4 installed on the subject by the reception circuit 116 (step S260). The photographing support information based on the photographing information received in this way is displayed on the monitor 104 under the control of the CPU 101 (step S270) and provided to the user. Since it did in this way, the imaging assistance information suitable for an unspecified number of photographers can be provided similarly to what was demonstrated in 1st Embodiment.

(2) The digital camera 1A acquires a through image under the control of the CPU 101 (step S210) and displays it on the monitor 104 (step S220). When a plurality of subjects are displayed in the through image, and shooting information is transmitted from the transmission device 4 installed on each of the plurality of subjects, the digital camera 1A selects one of the plurality of subjects. (Step S250). In this case, in step S270, shooting is performed based on the shooting information transmitted from the transmission device 4 provided for the subject selected in step S250 among the shooting information transmitted from the transmission device 4 provided for each of the plurality of subjects. The support information is displayed and provided to the user. Since it did in this way, since imaging | photography assistance information can be provided only about the to-be-photographed object for a user, it can prevent providing unnecessary imaging | photography assistance information.

  In the above embodiment, the digital cameras 1 and 1A, which are electronic cameras, have been described as examples. However, the present invention can be applied to other apparatuses. For example, the present invention can be applied to a mobile electronic device such as a camera-equipped mobile phone. Alternatively, the present invention may be applied when searching and displaying various types of information such as image information recorded in a space-time database in advance in digital binoculars or field scopes that do not perform shooting.

  The embodiment and various modifications described above are merely examples. Therefore, the present invention is not limited to these contents as long as the characteristics of the present invention are not impaired.

It is a block diagram of the camera system by the 1st Embodiment of this invention. It is a figure which shows the external appearance of the digital camera by the 1st Embodiment of this invention. 1 is a block diagram of a digital camera according to a first embodiment of the present invention. It is a figure which shows the example of the through image displayed when imaging | photography mode is set in the digital camera by 1st Embodiment. It is a figure which shows the example of the imaging | photography assistance screen displayed when the information assistance mode is set in the digital camera by 1st Embodiment. It is a figure which shows the flowchart which shows the flow of a process when extracting imaging | photography information from a database and providing imaging | photography assistance information. It is a block diagram of the camera system by the 2nd Embodiment of this invention. It is a block diagram of the digital camera by the 2nd Embodiment of this invention. It is a figure which shows the example of the through image displayed when imaging | photography mode is set in the digital camera by 2nd Embodiment. It is a figure which shows the example of the imaging | photography assistance screen displayed when imaging | photography information is transmitted in the digital camera by 2nd Embodiment. It is a figure which shows the flowchart which shows the flow of a process when receiving imaging | photography information and providing imaging | photography assistance information.

Explanation of symbols

1, 1A: Digital camera 2: Access point 3: Server device 4: Transmission device

Claims (10)

A shooting section for shooting the subject;
A position detection unit for detecting the position of the photographing unit;
Based on the position detected by the position detection unit, a search unit for searching for shooting information related to the subject from a shooting database having a plurality of shooting information;
An electronic camera comprising: a providing unit that provides a user with shooting support information based on the shooting information searched by the search unit. The electronic camera according to claim 1,
An orientation detection unit for detecting the orientation of the electronic camera;
The electronic camera according to claim 1, wherein the retrieval unit retrieves the photographing information based on a position detected by the position detection unit and a direction detected by the direction detection unit. The electronic camera according to claim 2,
The orientation detection unit detects the orientation in at least one of a horizontal direction and a vertical direction;
The retrieval unit retrieves the photographing information based on the position detected by the position detection unit and the direction detected by the direction detection unit in at least one of a horizontal direction and a vertical direction. And an electronic camera. In the electronic camera as described in any one of Claims 1-3,
The electronic camera according to claim 1, wherein the providing unit provides the photographing support information to the user by displaying the photographing support information on a display monitor so as to overlap the through image. In the electronic camera as described in any one of Claims 1-4,
An electronic camera, further comprising: a shooting condition setting unit that sets shooting conditions based on the shooting support information. In the electronic camera as described in any one of Claims 1-5,
The search unit searches the shooting database for shooting information including at least one of composition, shutter speed, aperture, white balance, focal length, angle of view, used shooting lens, in-focus position, and lighting state. An electronic camera characterized by In the electronic camera as described in any one of Claims 1-6,
An information acquisition unit that acquires at least one of map information, schedule information, and event information;
The providing unit provides the user with shooting support information based on the shooting information searched by the search unit and the map information, schedule information, or event information acquired by the information acquisition unit. camera. In the electronic camera according to any one of claims 1 to 7,
The electronic camera according to claim 1, wherein the retrieval unit retrieves the shooting information based on at least one of season, date and climate. A receiving unit for receiving photographing information transmitted from a transmission device provided in the subject;
An electronic camera comprising: a providing unit that provides a user with shooting support information based on the shooting information received by the receiving unit. The electronic camera according to claim 9,
A through image acquisition unit for acquiring a through image;
A through image display unit for displaying the through image on a display monitor;
A selection unit that selects any one of a plurality of subjects captured in the through image displayed on the display monitor;
The transmission device is provided for each of the plurality of subjects,
The providing unit includes shooting support information based on shooting information transmitted from a transmission device provided to a subject selected by the selection unit, out of shooting information transmitted from a transmission device provided to each of the plurality of subjects. Is provided to the user.

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